3. Methods of manufacturing gears:
1. Casting
2. Metal Forming
3. Powder metallurgy
4. Metal removal
4. Casting:
• Cast in sand mould, permanent mould, shell mould, plastic
mould and wax mould.
• Heavy gears of CI are generally made by sand casting.
• Poor accuracy .
• Used in slow speed drive.
• Investment casting can produce accurate gears
• Have more strength.
• Advantage of casting is low cost production.
6. Metal Forming: contd…
Roll forming :
• Gears are made by forcing a hardened master gear into a
gear blank mounted on shaft.
• Master gear fed inward gradually.
• Done both hot and cold forming.
• Large defamation is possible in hot forming, finishing can
be done by cold forming.
• Cold forming requires high pressure compared to hot
forming.
• Method can be called chip-less method, Material saving.
7. Metal Forming: contd…
Extrusion:
• Metal bar is extruded through several block dies with the
final die having the shape of the desired tooth element.
• Material can finally be extruded to obtain gear on surface
of bar.
• Extruded gear bar is then hacksawed.
• Only spur gears are manufactured by this method.
• Gear used in watches.
8. Metal Forming: contd…
Stamping:
• Sheet metals gears.
• Up to 3 mm thickness.
• Used in toys, watches, domestic appliances.
Coining:
• Gears coined from blanks in a hydraulic press or forging
hammer.
• Gear required light machining.
9. Powder metallurgy:
• Metal powder is pressed in dies confirming to the tooth
shape.
• Sintering is done.
• Coined to increase density and surface finish.
• High quality gears.
• Small gears upto 25 mm diameter.
• CI, Steel, Brass and others alloys.
10. Metal Removal: contd…
• Widely used method of producing gears.
Forming or profiling
• Cutter used has the same as form as the space between the
teeth to be cut.
• Requires the use of special cutter for each application.
1. Gear cutting on milling machine with formed disc
cutter or end-milling cutter.
2. Gear cutting on planer or shaper with single point
formed tool.
3. Gear cutting with formed cutter in broaching machine.
11. 1. Gear cutting by milling with from cutters:
• Milling machines are capable of cutting practically every
type of gear by employing an universal indexing mechanism
and a form cutter.
12. 1. Gear cutting by milling with from cutters: contd…
[Disc type from cutter] [End mill cutter]
13. 2. Gear cutting with single point formed tool on
shaper/planer:
14. • Both internal and external gears can be manufactured using
a from tool called broach.
• Broach should carry teeth which confirms in shape to the
profile of the tooth space of the gear to be cut.
• Teeth cut on the gear carry superior finish.
• Favorable process for cutting internal gears.
3. Broaching:
15. Gear generation
• One of the gears on the rack is made into a cutter by
proper sharpening.
• This cutter gear meshes with the gear blank.
• Teeth on blank are developed or generated by relative
rolling motion of the cutter and the blank.
• Same cutter of a particular module can cut gears of
different number of teeth without profile deviation.
• Can be used for mass production.
Metal Removal: contd…
16. • Cutter is a gear provided with cutting edge.
1. Gear shaping: contd…
17. • Cutter is mounted with its axis vertical and reciprocate.
• Cutter and gear blank both rotate slowly about their own
axis.
1. Gear shaping: contd…
23. • The surface of gear teeth produced through forming or
generation process is not very accurate and properly
finished.
• Results in noise, excessive wear, backlash among meshing
teeth or sometime in ultimate failure of the gear in the
drive.
• To overcome these defects, some finishing operations
become necessary after the gears are produced.
• It makes gear quite and smooth during running.
Gear finishing process:
24. 1. Gear shaving:
• Gear run at high speed in mesh and pressed against a
hardened gear shaving cutter.
• Sharp edges of the shaving cutter scrape small amount of
metal from the surface of the teeth removes surface
irregularities.
Gear finishing process: contd…
25. 2. Gear burnishing:
• Done before hardening of gears.
• Work gear rolled under pressure, with hardened and
accurately finished gear.
• Excessive martial from non-desired regions is plastically
moved out by rolling action.
• Though the method provides smooth and accurate tooth
profile, it increases localized residual stresses.
• Never advisable to employ the method on precision gears.
Gear finishing process: contd…
26. 3. Gear grinding:
• Most accurate method of finishing gear teeth.
• Method is slower and more expensive but it gives highest
quality gears.
Gear finishing process: contd…
27. 4. Gear lapping:
• Lapping is often done on hardened gears (Hardness, >
45RC) to remove burrs, scales, abrasions, nicks and
irregularities from the surface and to remove small errors
caused by heat treatment.
• It is carried out by running the work gear in mesh with a
mating gear or one or more small cast iron toothed laps
under a flow of fine abrasives in oil.
• During lapping the work is turned first in one direction and
then in the other to finish both sides of the tooth.
• Very small amount of material is removed during lapping.
Gear finishing process: contd…
28. 5. Gear honing:
• Like lapping, honing is also suitable for finishing heat
treated gears.
• It is carried out with the help of steel tools having abrasive
or cemented carbide particles embedded in their surface.
• The honing tool is pushed with constant force along the
tooth space.
• The honing tools are costlier than lapping tools but the
process is much faster.
Gear finishing process: contd…
30. • A screw thread is a ridge of uniform cross section in the
form of a helix provided on the outside or inside of a
cylindrical or conical surface.
• External threads are provided on bolts, screws and studs
while internal threads are necessary on the corresponding
nuts or machine members into which these units are to be
screwed.
Thread :
31. • Functionally threads serve many purposes. Bolts, studs,
screws and other fasteners are threaded for holding
components securely yet permitting them to be separated
whenever desired.
• Screw jacks and presses are provided with threaded
components for transmitting power.
• Lead screws in machine tools facilitate controlled accurate
movements.
• Accurately cut screws in dividing machines, micrometers
and other measuring devices are used to control and
measure fine dimensions.
Applications of Thread :
32. Screw threads may be manufactured by any one of the
following methods :
1.Thread cutting on a lathe
2.Thread chasing
3.Die threading
4.Tapping
5.Thread milling
6.Thread rolling
7.Thread grinding
8.Thread casting
9.Thread whirling
Thread Manufacturing Methods:
33. • Using a single point form tool.
• Lead screw of the machine to control the form and lead of
the thread respectively.
• Both internal and external threads can be cut.
• The full depth of the thread is produced by a number of
successive passes each with a small depth of cut.
Thread Cutting on a Lathe :
34. • The method is extremely slow and cannot be made
automatic.
• The process of engaging and disengaging of the carriage
half-nut using a chasing dial requires considerable skill and
attention of the operator.
• Screw cutting with a single point tool is still an economical
method for one piece or small quantity production.
Thread Cutting on a Lathe : contd…
35. • A chaser is a multi-point threading tool having the same
form and pitch as that of the thread to be chased.
• The device may be in the form of an attachment used on
the lathe or may be built into a special purpose machine.
• In this device power from the headstock of the machine is
given to a short lead screw known as the leader by means
of change gears.
Thread chasing:
36. • Power from headstock is given to a short lead screw known
as the leader by means of change gears.
• The feed nut and the tool slide are carried on a shaft which
can be engaged or disengaged to the leader with the help
of the handle shown.
Thread chasing: contd…
37. • The feed nut can be engaged to the leader at any position
of the work rotation.
• The operation is carried out at about 50 percent of the
speed for turning .
• Allows considerably higher cutting speeds to be used.
Thread chasing: contd…
38. • The dies used in die threading may be solid or self opening
type. Solid dies are made of high speed steel and are
mainly used for hand threading but can be used on turret
and lathes with suitable holders.
• Some adjustable dies are available with provision for size
compensation of wear on dies.
• Solid dies are made of carbon steel or H.S.S and are
generally used for threading by hand.
• The main drawback of these dies is that after be the thread
has been completely cut, the die has to be withdrawn by
reversing the spindle.
Thread cutting dies: contd…
39. • The self-opening dies use H.S.S. chasers mounted in die
heads.
• The die heads are provided with arrangement for opening
and closing of the thread chasers within the die head.
• After the thread has been completed the chasers are
withdrawn radially outwards in the body due to the action
of a cam or scroll.
• This clears the chasers from the threads. The die head can
be withdrawn without reversing the spindle.
Thread cutting dies: contd…
40. • Depending upon the type of chasers, self opening die
heads can be classified into three main types :
(1)Radial
(2)Tangential
(3)Circular
Thread cutting dies: contd…
41. • Tapping is a thread cutting process for
producing internal threads.
• Like die threading tapping also uses
multipoint cutting tools called taps and may
be done manually or on machines.
• The use of tapping tools with machines
essentially follows the same procedure as
manual tapping.
Tapping:
42. • Feed being automatic with the machine, the threads
produced are more accurate and uniform.
• Machining rate can be considerably increased by providing
the machine features like...
• fast retraction of the tool,
• continuous or automatic loading and unloading of parts
and
• use of multiple spindles.
Tapping : contd…
43. • The most common method of thread milling is with a multi-
tooth cutter called hob on a thread milling machine.
• The hob is carried in a cutter head mounted on the carriage
that slides between the head stock and the tail stock.
• The cutter and job axis lie in parallel planes with the cutter
set at an angle equal to the lead angle of the thread.
• The cutter rotates at the milling speed while the job is
revolved at a slow feeding speed.
Thread milling :
44. • During operation the revolving cutter is first fed to the full
depth into the work.
• Then fed lengthwise along the slowly revolving workpiece.
• So that by the time the thread being cut encircles the job
diameter, each thread would have advanced one pitch.
Thread milling : contd…
45. • Produces external threads by a cold forging operation
rather than a cutting operation.
• This is achieved by subjecting a thread blank to pressure
between two hardened steel dies.
• The surfaces of the dies carry reverse form of the thread to
be cut.
• Application of pressure causes plastic flow of the material.
Thread rolling:
46. • The diameter of the blank is approximately equal to the
pitch diameter of the required thread.
• The die thread penetrates to form the depression or roots
of the thread while the displaced material forms the crests
and flanks.
Thread rolling:
47. • Dies may be in form of grooved blocks or threaded rolls.
• Thread rolling can be carried out on any material that can
withstand the forging pressure.
• Two types of dies are in common use for thread rolling.
• Flat dies
• Cylindrical dies
Thread rolling: contd…
48. • Thread grinding is used as a forming or finishing operation.
• Done on threads which are required to have a very high
degree of finish and accuracy.
• Materials which are very hard or very soft and for threads
which have been heat treated.
• A lot of cutting fluid must be used to get the best results.
Thread grinding :
49. • The accuracy and finish of threads produced by casting
depends on the casting process used.
• Threads made by sand casting are rough and are not used
much except in some vices and rough working machinery.
• Threads made by die casting and permanent mould casting
are quite accurate and of high finish.
• These methods can be used to produce external and
internal threads in complex jobs but the methods are
suitable for low melting temperature metals.
Thread casting:
50. • The process can be carried out on special thread whirling
machines or on standard engine lathes equipped with
thread whirling attachment.
• The thread whirling equipment essentially consists of a tool
holding ring which carries four carbide tipped tools,
mounted at 90 dgree to each other.
• The ring is set eccentric to the work axis and is run at
speeds of 1000-3000 rpm by an independent motor.
• The carrier unit can be swivelled to set the tool path along
the axis of the helix angle of the thread and is provided
with a setting microscope for setting the tools.
Thread whirling :
52. • The whole unit is mounted on the carriage of the machine
and is provided linear motion corresponding to the pitch of
the screw being cut by gearing it to the machine lead
screw.
• The work piece, mounted horizontally is provided a slow
rotational motion of 3-30 rpm from the headstock through
a reducer.
• Two of the whirling tools cut along the flanks of the thread,
the third cuts at the root while the fourth one which has
the full tooth form finishes the thread.
Thread whirling : contd…